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Discover AlgoSec's transformative 2024 journey: innovation in secure connectivity, industry leadership, and a bold vision for an empowered, Network Security 2024 in review: A transformative year for AlgoSec in secure application connectivity Adel Osta Dadan 2 min read Adel Osta Dadan Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 12/16/24 Published As we close out 2024, I find myself reflecting on what has truly been a transformative journey for AlgoSec . This year has been filled with ground-breaking innovation, meaningful industry recognition, and a deep commitment to our vision of secure application connectivity. It has been a year where every challenge was met with determination, every milestone became a stepping-stone toward a greater future, and every success strengthened our resolve to lead in secure connectivity. Q1: Redefining secure application connectivity. We started the year by challenging traditional approaches to secure application connectivity, setting the tone for everything that followed. State of Network Security Report : The release of our State of Network Security Report was the first major milestone, quickly becoming a cornerstone of our thought leadership. This report highlighted major trends such as the enduring importance of hybrid networks and the growing shift toward multi-cloud strategies. We emphasized that security could—and should—be a driver of digital transformation. The findings made it clear that advanced tools like SD-WAN and SASE are no longer optional but essential for navigating today’s increasingly complex connectivity landscape. Launch of AlgoSec A33: In March, we launched AlgoSec A33, an application-first approach to security management. This was not just another product release; it was a clear statement of our belief that security should be an enabler of business growth. With A33, we offered seamless integration into business processes, aligning security with broader organizational goals. This launch symbolized our commitment to making secure application connectivity the foundation for organizational success. Q2: Advancing security automation and building connections. Building on the momentum from Q1, the second quarter was about advancing our automation capabilities and strengthening connections within our community. Recognition from GigaOm and Gartner : During Q2, we received meaningful recognition from GigaOm and Gartner, being named an Established Vendor in Gartner Peer Insights Voice of the Customer for Secure Connectivity Automation Platforms. This recognition validated our dedication to combining intelligent automation with human expertise, simplifying network security across increasingly complex multi-cloud environments. It was a proud moment that affirmed our efforts and pushed us to do even more. Industry Conversations on Secure Connectivity: We also took the lead in important industry conversations during this period. From enhancing visibility to tackling the challenges of multi-cloud security, AlgoSec was at the forefront—delivering solutions that drove operational efficiency while addressing the real-world challenges faced by our customers. These conversations reinforced our position as a proactive leader committed to shaping the future of secure connectivity. Q3: Setting new standards in secure connectivity. Moving into Q3, our goal was to push the boundaries further and set new industry standards for secure connectivity. Introduction of Security Application Connectivity. Anywhere (SACA): One of the major highlights of the third quarter was the introduction of our Security Application Connectivity Anyware (SACA) framework. SACA embodied our vision that secure connectivity is fundamental to digital transformation. By providing our customers with confidence in their application flows—without sacrificing performance or agility—we enabled them to innovate with assurance. AlgoSummit 2024: In September, we hosted AlgoSummit 2024—our flagship event that brought together customers, partners, and industry experts. AlgoSummit was not just an event but a collaborative platform for shared learning and innovation. Together, we explored the evolving landscape of secure connectivity in hybrid and multi-cloud environments. This summit further solidified AlgoSec's role as a visionary leader in the industry, committed to both solving today’s challenges and anticipating those of tomorrow. Q4: Expanding Zero Trust and navigating regulatory changes. As we entered the final quarter, our focus shifted to expanding our Zero Trust offerings and helping customers prepare for upcoming regulatory changes. Zero Trust Architecture Expansion: We made significant strides in advancing our Zero Trust network architecture initiatives in Q4. As hybrid environments grow more complex, we understood the need to simplify Zero Trust adoption for our customers. By leveraging both micro and macro-segmentation strategies, we offered a streamlined, application-centric approach that provided greater visibility and control—ensuring that connectivity remained secure, segmented, and compliant. Navigating DORA Compliance : Another key focus for Q4 was helping our customers navigate the requirements of the Digital Operational Resilience Act (DORA). With the compliance deadline fast approaching, we used our intelligent automation tools to make the transition as smooth as possible. Our solutions offered comprehensive visibility, automated risk assessments, and policy recertification, allowing financial institutions to meet DORA’s stringent standards confidently and strengthen their resilience. Recognition for innovation and ethical leadership Throughout the year, our commitment to responsible innovation and ethical leadership did not go unnoticed. SC Awards Finalist in Application Security: Being named a finalist in the SC Awards for Application Security was a significant milestone, reaffirming our dedication to protecting the applications that drive business growth and innovation. Top InfoSec Innovator Award from CyberDefense Magazine: In November, we were recognized as a Top InfoSec Innovator by CyberDefense Magazine. This accolade underscored our focus on ethical innovation—delivering security solutions that are trustworthy, responsible, and aligned with global standards. Accolades in Network and Application Security : Additionally, we were named a Hot Company in Secure Application Connectivity and recognized as the Most Innovative in Application Security. These awards were not just acknowledgments of our technology but a testament to our ongoing commitment to setting new standards of transparency, accountability, and secure connectivity. Cisco Meraki Marketplace Tech Partner of the Month : In October 2024, we were honored as the Cisco Meraki Marketplace Tech Partner of the Month based on our continued innovation and dedication to application security . This recognition highlights our ability to deliver holistic visibility, automate security policy changes, reduce risks, and ensure continuous compliance through seamless integration with Cisco Meraki solutions. Looking to the future: building on the foundations of 2024 Reflecting on 2024, it’s clear that this has been a year of significant growth, innovation, and resilience. The lessons we’ve learned and the progress we’ve made have laid a strong foundation for the future. As we look ahead to 2025, our mission remains clear: to continue providing application-centric security solutions that not only protect but also empower our customers to achieve their strategic objectives. I am incredibly grateful for the dedication of our team, the trust our customers have placed in us, and the opportunity to continue shaping the future of secure connectivity. Here’s to another year of impactful innovation, collaboration, and leadership as we step confidently into 2025. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Protecting an organization against every conceivable threat is rarely possible. There is a practically unlimited number of potential... Uncategorized Risk Management in Network Security: 7 Best Practices for 2024 Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 1/26/24 Published Protecting an organization against every conceivable threat is rarely possible. There is a practically unlimited number of potential threats in the world, and security leaders don’t have unlimited resources available to address them. Prioritizing risks associated with more severe potential impact allows leaders to optimize cybersecurity decision-making and improve the organization’s security posture. Cybersecurity risk management is important because many security measures come with large costs. Before you can implement security controls designed to protect against cyberattacks and other potential risks, you must convince key stakeholders to support the project. Having a structured approach to cyber risk management lets you demonstrate exactly how your proposed changes impact the organization’s security risk profile. This makes it much easier to calculate the return on cybersecurity investment – making it a valuable tool when communicating with board members and executives. Here are seven tips every security leader should keep in mind when creating a risk management strategy: Cultivate a security-conscious risk management culture Use risk registers to describe potential risks in detail Prioritize proactive, low-cost risk remediation when possible Treat risk management as an ongoing process Invest in penetration testing to discover new vulnerabilities Demonstrate risk tolerance by implementing the NIST Cybersecurity Framework Don’t forget to consider false positives in your risk assessment What is a Risk Management Strategy? The first step to creating a comprehensive risk management plan is defining risk. According to the International Organization for Standardization (ISO) risk is “the effect of uncertainty on objectives”. This definition is accurate, but its scope is too wide. Uncertainty is everywhere, including things like market conditions, natural disasters, or even traffic jams. As a cybersecurity leader, your risk management process is more narrowly focused on managing risks to information systems, protecting sensitive data, and preventing unauthorized access. Your risk management program should focus on identifying these risks, assessing their potential impact, and creating detailed plans for addressing them. This might include deploying tools for detecting cyberattacks, implementing policies to prevent them, or investing in incident response and remediation tools to help you recover from them after they occur. In many cases, you’ll be doing all of these things at once. Crucially, the information you uncover in your cybersecurity risk assessment will help you prioritize these initiatives and decide how much to spend on them. Your risk management framework will provide you with the insight you need to address high-risk, high-impact cybersecurity threats first and manage low-risk, low-impact threats later on. 7 Tips for Creating a Comprehensive Risk Management Strategy 1. Cultivate a security-conscious risk management culture No CISO can mitigate security risks on their own. Every employee counts on their colleagues, partners, and supervisors to keep sensitive data secure and prevent data breaches. Creating a risk management strategy is just one part of the process of developing a security-conscious culture that informs risk-based decision-making. This is important because many employees have to make decisions that impact security on a daily basis. Not all of these decisions are critical-severity security scenarios, but even small choices can influence the way the entire organization handles risk. For example, most organizations list their employees on LinkedIn. This is not a security threat on its own, but it can contribute to security risks associated with phishing attacks and social engineering . Cybercriminals may create spoof emails inviting employees to fake webinars hosted by well-known employees, and use the malicious link to infect employee devices with malware. Cultivating a risk management culture won’t stop these threats from happening, but it might motivate employees to reach out when they suspect something is wrong. This gives security teams much greater visibility into potential risks as they occur, and increases the chance you’ll detect and mitigate threats before they launch active cyberattacks. 2. Use risk registers to describe potential risks in detail A risk register is a project management tool that describes risks that could disrupt a project during execution. Project managers typically create the register during the project planning phase and then refer to it throughout execution. A risk register typically uses the following characteristics to describe individual risks: Description : A brief overview of the risk itself. Category: The formal classification of the risk and what it affects. Likelihood: How likely this risk is to take place. Analysis: What would happen if this risk occurred. Mitigation: What would the team need to do to respond in this scenario. Priority: How critical is this risk compared to others. The same logic applies to business initiatives both large and small. Using a risk register can help you identify and control unexpected occurrences that may derail the organization’s ongoing projects. If these projects are actively supervised by a project manager, risk registers should already exist for them. However, there may be many initiatives, tasks, and projects that do not have risk registers. In these cases, you may need to create them yourself. Part of the overall risk assessment process should include finding and consolidating these risk registers to get an idea of the kinds of disruptions that can take place at every level of the organization. You may find patterns in the types of security risks that you find described in multiple risk registers. This information should help you evaluate the business impact of common risks and find ways to mitigate those risks effectively. 3. Prioritize proactive, low-cost risk remediation when possible Your organization can’t afford to prevent every single risk there is. That would require an unlimited budget and on-demand access to technical specialist expertise. However, you can prevent certain high-impact risks using proactive, low-cost policies that can make a significant difference in your overall security posture. You should take these opportunities when they present themselves. Password policies are a common example. Many organizations do not have sufficiently robust password policies in place. Cybercriminals know this –that’s why dictionary-based credential attacks still occur. If employees are reusing passwords across accounts or saving them onto their devices in plaintext, it’s only a matter of time before hackers notice. At the same time, upgrading a password policy is not an especially expensive task. Even deploying an enterprise-wide password manager and investing in additional training may be several orders of magnitude cheaper than implementing a new SIEM or similarly complex security platform. Your cybersecurity risk assessment will likely uncover many opportunities like this one. Take a close look at things like password policies, change management , and security patch update procedures and look for easy, low-cost projects that can provide immediate security benefits without breaking your budget. Once you address these issues, you will be in a much better position to pursue larger, more elaborate security implementations. 4. Treat risk management as an ongoing process Every year, cybercriminals leverage new tactics and techniques against their victims. Your organization’s security team must be ready to address the risks of emerging malware, AI-enhanced phishing messages, elaborate supply chain attacks, and more. As hackers improve their attack methodologies, your organization’s risk profile shifts. As the level of risk changes, your approach to information security must change as well. This means developing standards and controls that adjust according to your organization’s actual information security risk environment. Risk analysis should not be a one-time event, but a continuous one that delivers timely results about where your organization is today – and where it may be in the future. For example, many security teams treat firewall configuration and management as a one-time process. This leaves them vulnerable to emerging threats that they may not have known about during the initial deployment. Part of your risk management strategy should include verifying existing security solutions and protecting them from new and emerging risks. 5. Invest in penetration testing to discover new vulnerabilities There is more to discovering new risks than mapping your organization’s assets to known vulnerabilities and historical data breaches. You may be vulnerable to zero-day exploits and other weaknesses that won’t be immediately apparent. Penetration testing will help you discover and assess risks that you can’t find out about otherwise. Penetration testing mitigates risk by pinpointing vulnerabilities in your environment and showing how hackers could exploit them. Your penetration testing team will provide a comprehensive report showing you what assets were compromised and how. You can then use this information to close those security gaps and build a stronger security posture as a result. There are multiple kinds of penetration testing. Depending on your specific scenario and environment, you may invest in: External network penetration testing focuses on the defenses your organization deploys on internet-facing assets and equipment. The security of any business application exposed to the public may be assessed through this kind of test. Internal network penetration testing determines how cybercriminals may impact the organization after they gain access to your system and begin moving laterally through it. This also applies to malicious insiders and compromised credential attacks. Social engineering testing looks specifically at how employees respond to attackers impersonating customers, third-party vendors, and internal authority figures. This will help you identify risks associated with employee security training . Web application testing focuses on your organization’s web-hosted applications. This can provide deep insight into how secure your web applications are, and whether they can be leveraged to leak sensitive information. 6. Demonstrate risk tolerance by implementing the NIST Cybersecurity Framework The National Institute of Standards and Technology publishes one of the industry’s most important compliance frameworks for cybersecurity risk mitigation. Unlike similar frameworks like PCI DSS and GDPR, the NIST Cybersecurity Framework is voluntary – you are free to choose when and how you implement its controls in your organization. This set of security controls includes a comprehensive, flexible approach to risk management. It integrates risk management techniques across multiple disciplines and combines them into an effective set of standards any organization can follow. As of 2023, the NIST Risk Management Framework focuses on seven steps: Prepare the organization to change the way it secures its information technology solutions. Categorize each system and the type of information it processes according to a risk and impact analysis/ Select which NIST SP 800-53 controls offer the best data protection for the environment. Implement controls and document their deployment. Assess whether the correct controls are in place and operating as intended. Authorize the implementation in partnership with executives, stakeholders, and IT decision-makers. Monitor control implementations and IT systems to assess their effectiveness and discover emerging risks. 7. Don’t forget to consider false positives in your risk assessment False positives refer to vulnerabilities and activity alerts that have been incorrectly flagged. They can take many forms during the cybersecurity risk assessment process – from vulnerabilities that don’t apply to your organization’s actual tech stack to legitimate traffic getting blocked by firewalls. False positives can impact risk assessments in many ways. The most obvious problem they present is skewing your assessment results. This may lead to you prioritizing security controls against threats that aren’t there. If these controls are expensive or time-consuming to deploy, you may end up having an uncomfortable conversation with key stakeholders and decision-makers later on. However, false positives are also a source of security risks. This is especially true with automated systems like next-generation firewalls , extended detection and response (XDR) solutions, and Security Orchestration, Automation, and Response (SOAR) platforms. Imagine one of these systems detects an outgoing video call from your organization. It flags the connection as suspicious and begins investigating it. It discovers the call is being made from an unusual location and contains confidential data, so it blocks the call and terminates the connection. This could be a case of data exfiltration, or it could be the company CEO presenting a report to stockholders while traveling. Most risk assessments don’t explore the potential risk of blocking high-level executive communications or other legitimate communications due to false positives. Use AlgoSec to Identify and Assess Network Security Risks More Accurately Building a comprehensive risk management strategy is not an easy task. It involves carefully observing the way your organization does business and predicting how cybercriminals may exploit those processes. It demands familiarity with almost every task, process, and technology the organization uses, and the ability to simulate attack scenarios from multiple different angles. There is no need to accomplish these steps manually. Risk management platforms like AlgoSec’s Firewall Analyzer can help you map business applications throughout your network and explore attack simulations with detailed “what-if” scenarios. Use Firewall Analyzer to gain deep insight into how your organization would actually respond to security incidents and unpredictable events, then use those insights to generate a more complete risk management approach. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

how can you elevate digital transformation and cloud migration efforts, without neglecting your security Does it have to be one or the other, and if not, what steps should be taken in your transformation journeys to ensure that network security remains a priority Webinars How to modernize your infrastructure without neglecting your security Moving enterprise applications onto the cloud can deliver several benefits, including increased data protection, enhanced business agility, and significant cost savings. However, if the migration isn’t appropriately executed, your hybrid cloud network could be compromised. The key is to balance your digital transformation efforts by improving your infrastructure while providing all the necessary security controls. In this webinar, our expert panel dives into the steps required to migrate applications without sacrificing security. Join us in this session to learn how to: Transfer the security elements of your application onto the cloud Find ways to lower migration costs and reduce risks through better preparation Modernize your infrastructure with the help of superior visibility Structure your security policies across your entire hybrid and multi-cloud network January 11, 2022 Kyle Wickert WW Strategic Architect Alex Hilton | Michael Meyer Chief Executive, CIF | CRP, MRSBPO Relevant resources Cloud migrations made simpler: Safe, Secure and Successful Migrations Keep Reading Cloud atlas: how to accelerate application migrations to the cloud Keep Reading 5 Predictions on Cyber Security and Network Security Management for 2021 Watch Video Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Multi-cloud environments create complex IT architectures that are hard to secure. Although cloud computing creates numerous advantages... Cloud Security 3 Proven Tips to Finding the Right CSPM Solution Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Multi-cloud environments create complex IT architectures that are hard to secure. Although cloud computing creates numerous advantages for companies, it also increases the risk of data breaches. Did you know that you can mitigate these risks with a CSPM? Rony Moshkovitch, Prevasio’s co-founder, discusses why modern organizations need to opt for a CSPM solution when migrating to the cloud and also offers three powerful tips to finding and implementing the right one. Cloud Security Can Get Messy if You Let it A cloud-based IT infrastructure can lower your IT costs, boost your agility, flexibility, and scalability, and enhance business resilience. These great advantages notwithstanding, the cloud also has one serious drawback: it is not easy to secure. When you move from an on-premise infrastructure to the cloud, the size of your digital footprint expands. This can attract hackers on the prowl who are looking for the first opportunity to compromise your assets or steal your data. Cloud security solutions include multiple elements that must be managed and protected, such as microservices, containers, and serverless functions. These elements increase cloud complexity, reduce visibility into the cloud estate, and make it harder to secure. For all these reasons, security issues arise in the cloud, increasing the risk of breaches that may result in financial losses, legal liabilities, or reputational damage. To protect the complex and fluid cloud environment, sophisticated automation is essential. Enter cloud security posture management. How to Identify and Implement the Right CSPM Solution 1) It must offer a flat learning curve to accelerate time to value: The CSPM solution can be easy to implement, adopt, and use. It should not burden your security team. Rather, it should simplify cloud security by providing non-intrusive, agentless scans of all cloud accounts, services, and assets. It should also provide actionable information in a single-pane-of-glass view that clearly reveals what needs to be remediated in order to strengthen your cloud security posture. In addition, the solution should generate reports that are easy to understand and share. 2) It must support non-intrusive, agentless, static and dynamic analyses: Some CSPM solutions only support static scans, leaving dynamic scans to other intrusive solutions. The problem with the latter is that they require agents to be deployed, managed, and updated for every scan, increasing the organization’s technical debt and forcing security teams to spend expensive (and scarce) resources on solution management. The best way to minimize the debt and the management burden on security teams is to choose a CSPM that can scan for threats in an agentless manner. It should also perform agentless dynamic analyses on all container applications and images that can reveal valuable information about exposed network ports and other risks. 3) It must be reasonably priced: CSPM is important but it shouldn’t burn a hole in your pocket. The solution should fit your security budget and match your organization’s size, cloud environment complexity, and cloud asset usage. Also, look for a vendor that provides a transparent license model and dynamic security features instead of just dynamic, expensive billing (that could reduce your ability to control your cloud costs). Conclusion and next steps The global CSPM market is set to double from $4.2 billion in 2022 to $8.6 billion by 2027. Already, many CSPM vendors and solutions are available. In order to select the best solution for your organization, make sure to consider the three tips discussed here. Need more tailored advice about the security needs of your enterprise cloud? Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Protecting cloud-based applications and workloads requires robust security solutions such as CSPM, CIEM and CWPP. CNAPP tries to answer... Cloud Security CSPM vs. CNAPP: Which Solution to Choose? Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Protecting cloud-based applications and workloads requires robust security solutions such as CSPM, CIEM and CWPP. CNAPP tries to answer all 3 but how do you know which solution is right for your specific organization? Ava Chawla, AlgoSec’s Global Head of Cloud Security unravels the differences between them and shares her expert opinion on the solution that offers the most value for organizations. What is Cloud Security Posture Management (CSPM)? A CSPM tool monitors the logs and configuration files of the services you use in your cloud environment. It will scan the entire cloud environment to detect and prevent misconfiguration errors. This is important because configurations in the cloud happen quickly and just as quickly introduce new threats into the environment. For robust ongoing protection, you need to monitor the environment continuously and automatically. Here’s where CSPM comes in. The best CSPM solutions implement configuration best practices and automatically initiate corrective actions to remove risks, thus improving cloud security, ensuring adherence to compliance policies, and reducing the likelihood of breaches. Additionally, they are agentless, do not require long configuration, and don’t add to your cloud bills by utilizing additional cloud resources. What is Cloud Infrastructure Entitlement Management (CIEM)? In cloud environments, identity goes beyond users and groups. It also plays a vital role in managing all the resources and services that need to access data. All these accesses happen very quickly and constitute a complex web of interactions. It’s crucial to know when and between whom these interactions occur to ensure that only legitimate resources can access or modify data. But as your cloud resources increase, the complexity of entitlements also grows. It’s not easy to keep track of these entitlements or to maintain the security-focused principle of least privilege (PoLP). CIEM tools are specialized identity-centric solutions to manage cloud access risk and govern entitlements in hybrid and multi-cloud environments. With CIEM, you can manage entitlements across all your cloud resources and maintain PoLP to mitigate the risk created by granting excessive permissions to cloud resources. What is a Cloud Workload Protection Platform (CWPP)? CWPP solutions manage cloud applications and workloads. They can reach back into on- prem environments and thus effectively detect and prevent security problems like malware and vulnerabilities across the entire hybrid landscape. CWPP solutions can scale automatically and support your organization as your cloud environment grows or changes. What is a Cloud Native Application Protection Platform (CNAPP)? Each of these solutions are geared towards a specific area of cloud security. CSPM prevents misconfiguration errors, CIEM platforms manage cloud access risks, and CWPP protects your assets and workloads. But what if you want a single solution that can completely manage the security of your cloud environment? Try a Cloud Native Application Protection Platform . CNAPP solutions combine security posture management, workload protection, and entitlement management into one single platform to provide comprehensive, holistic security across multi-cloud environments. Thus, you can protect your entire cloud estate with one solution instead of having to implement and manage multiple point solutions. Another advantage of a CNAPP tool is that it will enable you to “shift left”. Thus, you can not only secure applications in production environments, but also manage the runtime and DevOps aspects of security. For this reason, these platforms are aimed at both security professionals and DevOps practitioners. Conclusion and Next Steps A CNAPP solution is the most comprehensive solution. However, in today’s market there is no one tool that truly covers all the functionalities that CNAPP promises. Therefore, each organization should choose the solution that fits its immediate needs, including taking other considerations into account such as the skill level and the maturity of its cloud adoption. One important thing to remember: Regardless of the solution you choose, make sure it’s agentless. Agentless is important in today’s cloud security because agent-based solutions are hard to manage, expensive, and intrusive. If you’re looking for a modern agentless CSPM with container protection to safeguard your cloud-based application and workload data, then Prevasio might be the best option for you. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Featured Snippet A cloud security audit is a review of an organization’s cloud security environment. During an audit, the security... Cloud Security What is a Cloud Security Audit? (and How to Conduct One) Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 6/23/23 Published Featured Snippet A cloud security audit is a review of an organization’s cloud security environment. During an audit, the security auditor will gather information, perform tests, and confirm whether the security posture meets industry standards. PAA: What is the objective of a cloud security audit? The main objective of a cloud security audit is to evaluate the health of your cloud environment, including any data and applications hosted on the cloud. PAA: What are three key areas of auditing in the cloud? From the list of “6 Fundamental Steps of a Cloud Security Audit.” Inspect the security posture Determine the attack surface Implement strict access controls PAA: What are the two types of security audits? Security audits come in two forms: internal and external. In internal audits, a business uses its resources and employees to conduct the investigation. In external audits, a third-party organization is hired to conduct the audit. PAA: How do I become a cloud security auditor? To become a cloud security auditor, you need a certification like the Certificate of Cloud Security Knowledge (CCSK) or Certified Cloud Security Professional (CCSP). Prior experience in IT auditing, cloud security management, and cloud risk assessment is highly beneficial. Cloud environments are used to store over 60 percent of all corporate data as of 2022. With so much data in the cloud, organizations rely on cloud security audits to ensure that cloud services can safely provide on-demand access. In this article, we explain what a cloud security audit is, its main objectives, and its benefits. We’ve also listed the six crucial steps of a cloud audit and a checklist of example actions taken during an audit. What Is a Cloud Security Audit? A cloud security audit is a review of an organization’s cloud security environment . During an audit, the security auditor will gather information, perform tests, and confirm whether the security posture meets industry standards. Cloud service providers (CSPs) offer three main types of services: Software as a Service (SaaS) Infrastructure as a Service (IaaS) Platform as a Service (PaaS) Businesses use these solutions to store data and drive daily operations. A cloud security audit evaluates a CSP’s security and data protection measures. It can help identify and address any risks. The audit assesses how secure, dependable, and reliable a cloud environment is. Cloud audits are an essential data protection measure for companies that store and process data in the cloud. An audit assesses the security controls used by CSPs within the company’s cloud environment. It evaluates the effectiveness of the CSP’s security policies and technical safeguards. Auditors identify vulnerabilities, gaps, or noncompliance with regulations. Addressing these issues can prevent data breaches and exploitation via cybersecurity attacks. Meeting mandatory compliance standards will also prevent potentially expensive fines and being blacklisted. Once the technical investigation is complete, the auditor generates a report. This report states their findings and can have recommendations to optimize security. An audit can also help save money by finding unused or redundant resources in the cloud system. Main Objectives of a Cloud Security Audit The main objective of a cloud security audit is to evaluate the health of your cloud environment, including any data and applications hosted on the cloud. Other important objectives include: Decide the information architecture: Audits help define the network, security, and systems requirements to secure information. This includes data at rest and in transit. Align IT resources: A cloud audit can align the use of IT resources with business strategies. Identify risks: Businesses can identify risks that could harm their cloud environment. This could be security vulnerabilities, data access errors, and noncompliance with regulations. Optimize IT processes: An audit can help create documented, standardized, and repeatable processes, leading to a secure and reliable IT environment. This includes processes for system ownership, information security, network access, and risk management. Assess vendor security controls: Auditors can inspect the CSP’s security control frameworks and reliability. What Are the Two Types of Cloud Security Audits? Security audits come in two forms: internal and external. In internal audits, a business uses its resources and employees to conduct the investigation. In external audits, a third-party organization is hired to conduct the audit. The internal audit team reviews the organization’s cloud infrastructure and data. They aim to identify any vulnerabilities or compliance issues. A third-party auditor will do the same during an external audit. Both types of audits provide an objective assessment of the security posture . But internal audits are rare since there is a higher chance of prejudice during analysis. Who Provides Cloud Security Audits? Cloud security assessments are provided by: Third-party auditors: Independent third-party audit firms that specialize in auditing cloud ecosystems. These auditors are often certified and experienced in CSP security policies. They also use automated and manual security testing methods for a comprehensive evaluation. Some auditing firms extend remediation support after the audit. Cloud service providers: Some cloud platforms offer auditing services and tools. These tools vary in the depth of their assessments and the features they provide to fix problems. Internal audit teams: Many organizations use internal audit teams. These teams assess the controls and processes using CSPM tools . They provide recommendations for improving security and mitigating risks. Why Cloud Security Audits Are So Important Here are eight ways in which security audits of cloud services are performed: Identify security risks: An audit can identify potential security risks. This includes weaknesses in the cloud infrastructure, apps, APIs, or data. Recognizing and fixing these risks is critical for data protection. Ensure compliance: Audits help the cloud environment comply with regulations like HIPAA, PCI DSS, and ISO 27001. Compliance with these standards is vital for avoiding legal and financial penalties. Optimize cloud processes: An audit can help create efficient processes using fewer resources. There is also a decreased risk of breakdowns or malfunctions. Manage access control: Employees constantly change positions within the company or leave. With an audit, businesses can ensure that everyone has the right level of access. For example, access is completely removed for former employees. Auditing access control verifies if employees can safely log in to cloud systems. This is done via two-step authentication, multi-factor authentication, and VPNs. Assess third-party tools: Multi-vendor cloud systems include many third-party tools and API integrations. An audit of these tools and APIs can check if they are safe. It can also ensure that they do not compromise overall security. Avoid data loss: Audits help companies identify areas of potential data loss. This could be during transfer or backup or throughout different work processes. Patching these areas is vital for data safety. Check backup safety: Cloud vendors offer services to back up company data regularly. An audit of backup mechanisms can ensure they are performed at the right frequency and without any flaws. Proactive risk management: Organizations can address potential risks before they become major incidents. Taking proactive action can prevent data breaches, system failures, and other incidents that disrupt daily operations. Save money: Audits can help remove obsolete or underused resources in the cloud. Doing this saves money while improving performance. Improve cloud security posture: Like an IT audit, a cloud audit can help improve overall data confidentiality, integrity, and availability. How Is a Cloud Security Audit Conducted? The exact audit process varies depending on the specific goals and scope. Typically, an independent third party performs the audit. It inspects a cloud vendor’s security posture. It assesses how the CSP implements security best practices and whether it adheres to industry standards. It also evaluates performance against specific benchmarks set before the audit. Here is a general overview of the audit process: Define the scope: The first step is to define the scope of the audit. This includes listing the CSPs, security controls, processes, and regulations to be assessed. Plan the audit: The next step is to plan the audit. This involves establishing the audit team, a timeline, and an audit plan. This plan outlines the specific tasks to be performed and the evaluation criteria. Collect information: The auditor can collect information using various techniques. This includes analytics and security tools, physical inspections, questioning, and observation. Review and analyze: The auditor reviews all the information to evaluate the security posture. Create an audit report: An audit report summarizes findings and lists any issues. It is presented to company management at an audit briefing. The report also provides actions for improvement. Take action: Companies form a team to address issues in the audit report. This team performs remediation actions. The audit process could take 12 weeks to complete. However, it could take longer for businesses to complete the recommended remediation tasks. The schedule may be extended if a gap analysis is required. Businesses can speed up the audit process using automated security tools . This software quickly provides a unified view of all security risks across multiple cloud vendors. Some CSPs, like Amazon Web Services (AWS) and Microsoft Azure, also offer auditing tools. These tools are exclusive to each specific platform. The price of a cloud audit varies based on its scope, the size of the organization, and the number of cloud platforms. For example, auditing one vendor could take four or five weeks. But a complex web with multiple vendors could take more than 12 weeks. 6 Fundamental Steps of a Cloud Security Audit Six crucial steps must be performed in a cloud audit: 1. Evaluate security posture Evaluate the security posture of the cloud system . This includes security controls, policies, procedures, documentation, and incident response plans. The auditor can interview IT staff, cloud vendor staff, and other stakeholders to collect evidence about information systems. Screenshots and paperwork are also used as proof. After this process, the auditor analyzes the evidence. They check if existing procedures meet industry guidelines, like the ones provided by Cloud Security Alliance (CSA). 2. Define the attack surface An attack surface includes all possible points, or attack vectors, through which unauthorized users can access and exploit a system. Since cloud solutions are so complex, this can be challenging. Organizations must use cloud monitoring and observability technologies to determine the attack surface. They must also prioritize high-risk assets and focus their remediation efforts on them. Auditors must identify all the applications and assets running within cloud instances and containers. They must check if the organization approves these or if they represent shadow IT. To protect data, all workloads within the cloud system must be standardized and have up-to-date security measures. 3. Implement robust access controls Access management breaches are a widespread security risk. Unauthorized personnel can get credentials to access sensitive cloud data using various methods. To minimize security issues related to unauthorized access, organizations must: Create comprehensive password guidelines and policies Mandate multi-factor authentication (MFA) Use the Principle of Least Privilege Access (PoLP) Restrict administrative rights 4. Strict data sharing standards Organizations must install strong standards for external data access and sharing. These standards dictate how data is viewed and accessed in shared drives, calendars, and folders. Start with restrictive standards and then loosen up restrictions when necessary. External access should not be provided to files and folders containing sensitive data. This includes personally identifiable information (PII) and protected health information (PHI). 5. Use SIEM Security Information and Event Management (SIEM) systems can collect cloud logs in a standardized format. This allows editors to access logs and automatically generates reports necessary for different compliance standards. This helps organizations maintain compliance with industry security standards. 6. Automate patch management Regular security patches are crucial. However, many organizations and IT teams struggle with patch management. To create an efficient patch management process, organizations must: Focus on the most crucial patches first Regularly patch valuable assets using automation Add manual reviews to the automated patching process to ensure long-term security How Often Should Cloud Security Audits Be Conducted? As a general rule of thumb, audits are conducted annually or biannually. But an audit should also be performed when: Mandated by regulatory standards. For example, Level 1 businesses must pass at least one audit per year to remain PCI DSS compliant. There is a higher risk level. Organizations storing sensitive data may need more frequent audits. There are significant changes to the cloud environment. Ultimately, the frequency of audits depends on the organization’s specific needs. The Major Cloud Security Audit Challenges Here are some of the major challenges that organizations may face: Lack of visibility Cloud infrastructures can be complex with many services and applications across different providers. Each cloud vendor has their own security policies and practices. They also provide limited access to operational and forensic data required for auditing. This lack of transparency prevents auditors from accessing pertinent data. To gather all relevant data, IT operations staff must coordinate with CSPs. Auditors must also carefully choose test cases to avoid violating the CSP’s security policies. Encryption Data in the cloud is encrypted using two methods — internal or provider encryption. Internal or on-premise encryption is when organizations encrypt data before it is transferred to the cloud. Provider encryption is when the CSP handles encryption. With on-premise encryption, the primary threat comes from malicious internal actors. In the latter method, any security breach of the cloud provider’s network can harm your data. From an auditing standpoint, it is best to encrypt data and manage encryption keys internally. If the CSP handles the encryption keys, auditing becomes nearly impossible. Colocation Many cloud providers use the same physical systems for multiple user organizations. This increases the security risk. It also makes it challenging for auditors to inspect physical locations. Organizations should use cloud vendors that use mechanisms to prevent unauthorized data access. For example, a cloud vendor must prevent users from claiming administrative rights to the entire system. Lack of standardization Cloud environments have ever-increasing entities for auditors to inspect. This includes managed databases, physical hosts, virtual machines (VMs), and containers. Auditing all these entities can be difficult, especially when there are constant changes to the entities. Standardized procedures and workloads help auditors identify all critical entities within cloud systems. Cloud Security Audit Checklist Here is a cloud security audit checklist with example actions taken for each general control area: The above list is not all-inclusive. Each cloud environment and process involved in auditing it is different. Industry Standards To Guide Cloud Security Audits Industry groups have created security standards to help companies maintain their security posture. Here are the five most recognized standards for cloud compliance and auditing: CSA Security, Trust, & Assurance Registry (STAR): This is a security assurance program run by the CSA. The STAR program is built on three fundamental techniques: CSA’s Cloud Control Matrix (CCM) Consensus Assessments Initiative Questionnaire (CAIQ) CSA’s Code of Conduct for GDPR Compliance CSA also has a registry of CSPs who have completed a self-assessment of their security controls. The program includes guidelines that can be used for cloud audits. ISO/IEC 27017:2015: The ISO/IEC 27017:2015 are guidelines for information security controls in cloud computing environments. ISO/IEC 27018:2019: The ISO/IEC 27018:2019 provides guidelines for protecting PII in public cloud computing environments. MTCS SS 584: Multi-Tier Cloud Security (MTCS) SS 584 is a cloud security standard developed by the Infocomm Media Development Authority (IMDA) of Singapore. The standard has guidelines for CSPs on information security controls.Cloud customers and auditors can use it to evaluate the security posture of CSPs. CIS Foundations Benchmarks: The Center for Internet Security (CIS) Foundations Benchmarks are guidelines for securing IT systems and data. They help organizations of all sizes improve their security posture. Final Thoughts on Cloud Security Audits Cloud security audits are crucial for ensuring your cloud systems are secure and compliant. This is essential for data protection and preventing cybersecurity attacks. Auditors must use modern monitoring and CSPM tools like Prevasio to easily identify vulnerabilities in multi-vendor cloud environments. This software leads to faster audits and provides a unified view of all threats, making it easier to take relevant action. FAQs About Cloud Security Audits How do I become a cloud security auditor? To become a cloud security auditor, you need certification like the Certificate of Cloud Security Knowledge (CCSK) or Certified Cloud Security Professional (CCSP). Prior experience in IT auditing, cloud security management, and cloud risk assessment is highly beneficial. Other certifications like the Certificate of Cloud Auditing Knowledge (CCAK) by ISACA and CSA could also help. In addition, knowledge of security guidelines and compliance frameworks, including PCI DSS, ISO 27001, SOC 2, and NIST, is also required. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized... Cloud Security Operation “Red Kangaroo”: Industry’s First Dynamic Analysis of 4M Public Docker Container Images Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 12/1/20 Published Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized Linux containers by offering an easy-to-use command line interface (CLI), an engine, and a registry server. Combined, these technologies have concealed all the complexity of building and running containers, by offering one common industry standard . As a result, Docker’s popularity has sky-rocketed, rivalling Virtual Machines, and transforming the industry. In order to locate and share Docker container images, Docker is offering a service called Docker Hub . Its main feature, repositories , allows the development community to push (upload) and pull (download) container images. With Docker Hub, anyone in the world can download and execute any public image, as if it was a standalone application. Today, Docker Hub accounts over 4 million public Docker container images . With 8 billion pulls (downloads) in January 2020 and growing , its annualized image pulls should top 100 billion this year. For comparison , Google Play has 2.7M Android apps in its store, with a download rate of 84 billion downloads a year. How many container images currently hosted at Docker Hub are malicious or potentially harmful? What sort of damage can they inflict? What if a Docker container image downloaded and executed malware at runtime? Is there a reliable way to tell that? What if a compromised Docker container image was downloaded by an unsuspecting customer and used as a parent image to build and then deploy a new container image into production, practically publishing an application with a backdoor built into it? Is there any way to stop that from happening? At Prevasio, we asked ourselves these questions multiple times. What we decided to do has never been done before. The Challenge At Prevasio, we have built a dynamic analysis sandbox that uses the same principle as a conventional sandbox that ‘detonates’ malware in a safe environment. The only difference is that instead of ‘detonating’ an executable file, such as a Windows PE file or a Linux ELF binary, Prevasio Analyzer first pulls (downloads) an image from any container registry, and then ‘detonates’ it in its own virtual environment, outside the organization/customer infrastructure. Using our solution, we then dynamically analyzed all 4 million container images hosted at Docker Hub. In order to handle such a massive volume of images, Prevasio Analyzer was executed non-stop for a period of one month on 800 machines running in parallel. The result of our dynamic scan reveals that: 51 percent of all containers had “critical” vulnerabilities, while 13 percent were classified as “high” and four percent as “moderate” vulnerabilities. Six thousand containers were riddled with cryptominers, hacking tools/pen testing frameworks, and backdoor trojans. While many cryptominers and hacking tools may not be malicious per se, they present a potentially unwanted issue to an enterprise. More than 400 container images (with nearly 600,000 pulls) of weaponized Windows malware crossing over into the world of Linux. This crossover is directly due to the proliferation of cross-platform code (e.g. GoLang, .NET Core and PowerShell Core). Our analysis of malicious containers also shows that quite a few images contain a dynamic payload. That is, an image in its original form does not have a malicious binary. However, at runtime, it might be scripted to download a source of a coinminer, to then compile and execute it. A dynamic analysis sandbox, such as Prevasio Analyzer, is the only solution that provides a behavioral analysis of Docker containers. It is built to reveal malicious intentions of Docker containers by executing them in its own virtual environment, revealing a full scope of their behavior. The whitepaper with our findings is available here . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your... Application Connectivity Management The great Fastly outage Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/29/21 Published Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your business can protect itself in the future. The odds are that before June 8th you probably hadn’t heard of Fastly unless you were a customer. It was only when swathes of the internet went down with the 503: Service Unavailable error message that the edge cloud provider started to make headlines . For almost an hour, sites like Amazon and eBay were inaccessible, costing millions of dollars’ worth of revenue. PayPal, which processed roughly $106 million worth of transactions per hour throughout 2020, was also impacted, and disruption at Shopify left thousands of online retail businesses unable to serve customers. While the true cost of losing a significant portion of the internet for almost one hour is yet to be tallied, we do know what caused it. What is Fastly and why did it break the internet? Fastly is a US-based content distribution network (CDN), sometimes referred to as an ‘edge cloud provider.’ CDNs relieve the load on a website’s servers and ostensibly improve performance for end-users by caching copies of web pages on a distributed network of servers that are geographically closer to them. The downside is that when a CDN goes down – due to a configuration error in Fastly’s case – it reveals just how vulnerable businesses are to forces outside of their control. Many websites, perhaps even yours, are heavily dependent on a handful of cloud-based providers. When these providers experience difficulties, the consequences for your business are amplified ten-fold. Not only do you run the risk of long-term and costly disruption, but these weak links can also provide a golden opportunity for bad actors to target your business with malicious software that can move laterally across your network and cause untold damage. How micro-segmentation can help The security and operational risks caused by these outages can be easily mitigated by implementing plans that should already be part of an organization’s cyber resilience strategy. One aspect of this is micro-segmentation , which is regarded as one of the most effective methods to limit the damage of an intrusion or attack and therefore limit large-scale downtime from configuration misfires and cyberattacks. Micro-segmentation is the act of creating secure “zones” in data centers and cloud deployments that allow your company to isolate workloads from one another. In effect, this makes your network security more compartmentalized, so that if a bad actor takes advantage of an outage in order to breach your organization’s network, or user error causes a system malfunction, you can isolate the incident and prevent lateral impact. Simplifying micro-segmentation with AlgoSec Security Management Suite The AlgoSec Security Management Suite employs the power of automation to make it easy for businesses to define and enforce their micro-segmentation strategy, ensuring that it does not block critical business services, and also meets compliance requirements. AlgoSec supports micro-segmentation by: Mapping the applications and traffic flows across your hybrid network Identifying unprotected network flows that do not cross any firewall and are not filtered for an application Automatically identifying changes that will violate the micro-segmentation strategy Ensuring easy management of network security policies across your hybrid network Automatically implementing network security policy changes Automatically validating changes Generating a custom report on compliance with the micro-segmentation policy Find out more about how micro-segmentation can help you boost your security posture, or request your personal demo . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Hybrid cloud computing enables organizations to deploy sensitive workloads on-premise or in a private cloud, while hosting less... DevSecOps Why organizations need to embrace new thinking in how they tackle hybrid cloud security challenges Prof. Avishai Wool 2 min read Prof. Avishai Wool Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/9/22 Published Hybrid cloud computing enables organizations to deploy sensitive workloads on-premise or in a private cloud, while hosting less business-critical resources on public clouds. But despite its many benefits, the hybrid environment also creates security concerns. AlgoSec’s co-founder and CTO, Prof. Avishai Wool shares his expert insights on these concerns and offers best practices to boost hybrid cloud security. Hybrid cloud computing combines on-premises infrastructure, private cloud services, and one or more public clouds. Going hybrid provides businesses with enhanced flexibility, agility, cost savings, and scalability to innovate, grow, and gain a competitive advantage. So, how can you simplify and strengthen security operations in the hybrid cloud? It all starts with visibility – you still can’t protect what you can’t see To protect their entire hybrid infrastructure, applications, workloads, and data, security teams need to know what these assets are and where they reside. They also need to see the entire hybrid estate and not just the individual elements. However, complete visibility is a serious hybrid cloud security challenge. Hybrid environments are highly complex, which can create security blind spots, which then prevent teams from identifying, evaluating, and most importantly, mitigating risk. Another hybrid cloud security concern is that you cannot implement a fragmented security approach to control the entire network. With thousands of integrated and inter-dependent resources and data flowing between them, vulnerabilities crop up, increasing the risk of cyberattacks or breaches. For complete hybrid cloud security, you need a holistic approach that can help you control the entire network. Is DevSecOps the panacea? Not quite In many organizations, DevSecOps teams manage cloud security because they have visibility into what’s happening inside the cloud. However, in the hybrid cloud, many applications have servers or clients existing outside the cloud, which DevSecOps may not have visibility into. Also, the protection of data flowing into and out of the cloud is not always under their remit. To make up for these gaps, other teams are required to manage security operations and minimize hybrid cloud risks. These additional processes and team members must be coordinated to ensure continuous security across the entire hybrid network environment. But this is easier said than done. Using IaC to balance automation with oversight is key, but here’s why you shouldn’t solely rely on it Infrastructure as code (IaC) will help you automatically deploy security controls in the hybrid cloud to prevent misconfiguration errors, non-compliance, and violations while in the production stage and pre application testing. With IaC-based security, you can define security best practices in template files, which will minimize risks and enhance your security posture. But there’s an inherent risk in putting all your eggs in the automation and IaC basket. Due to the fact that all the controls are on the operational side, it can create serious hybrid cloud security issues. And without human attention and action, vulnerabilities may remain unaddressed and open the door to cyberattacks. Since security professionals who are not on the operational side must oversee the cloud environment, it could easily open the door to miscommunication and human errors – a very costly proposition for organizations. For this very reason, you should also implement a process to regularly deploy automatic updates without requiring time-consuming approvals that slow down workflows and weaken security. Strive for 95% automated changes and only involve a person for the remaining 5% that requires human input. Hybrid cloud security best practices – start early, start strong When migrating from on-prem to the cloud, you can choose a greenfield migration or a lift-and-shift migration. Greenfield means rolling out a brand-new application. In this case, ensure that security considerations are “baked in” from the beginning and across all processes. This “shift left” approach helps build an environment that’s secure from the get-go. This ensures that all team members adhere to a unified set of security policy rules to minimize vulnerabilities and reduce security risks within the hybrid cloud environment. If you lift-and-shift on-prem applications to the cloud, note any security assumptions made when they were designed. This is important because they were not built for the cloud and may incorporate protocols that increase security risks. Next, implement appropriate measures during migration planning. For example, implement an Application Load Balancer if applications leverage plaintext protocols, and use sidecars to encrypt applications without having to modify the original codebase. You can also leverage hybrid cloud security solutions to detect and mitigate security problems in real-time. Matching your cloud security with application structure is no longer optional Before moving to a hybrid cloud, map the business logic, application structure, and application ownership into the hybrid cloud estate’s networking structure. To simplify this process, here are some tried and proven ways to consider. Break up your environment into a virtual private cloud (VPC) or virtual network. With the VPC, you can monitor connections, screen traffic, create multiple subnets, and also restrict instance access to improve security posture. Use networking constructs to segregate applications into different functional and networking areas in the cloud. This way, you can deploy network controls to segment your cloud estate and ensure that only authorized users can access sensitive data and resources. Tag all resources based on their operating system, business unit, and geographical area. Tags with descriptive metadata can help to identify resources. They also establish ownership and accountability, provide visibility into cloud consumption, and help with the deployment of security policies. Conclusion In today’s fast-paced business environment, hybrid cloud computing can benefit your organization in many ways. But to capture these benefits, you should make an effort to boost hybrid cloud security. Incorporate the best practices discussed here to improve security and take full advantage of your hybrid environment. To learn more about hybrid cloud security, listen to our Lessons in Cybersecurity podcast episode or head to our hybrid cloud resource hub here . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Webinars [Panel] How Financial Institutions Can Achieve Network Security and Compliance Financial institutions have strict network security requirements, which sometimes hinder innovation and digital transformation. Security and regulatory requirements act as a barrier to innovation. However, financial institutions can enable business innovation, while still achieving network security and compliance. Watch AlgoSec’s panel discussion, as Asher Benbenisty, Director of Product Marketing, and Yitzy Tannenbaum, Product Marketing Manager, discuss how financial institutions can simplify the network security management, reduce risk and ensure continuous compliance. They discuss: How intelligent automation helps overcome security management intricacy How to make sure network changes meet compliance requirements and pass regulatory audits the first time Industry metrics so you can benchmark your own organization as well as see how the finance sector compares to other industries Case studies from other financial institutions September 8, 2020 Yitzy Tannenbaum Product Marketing Manager Asher Benbenisty Director of product marketing Relevant resources Automated Security Policy Allows Financial Institutions to make the Triple Play Keep Reading Security policy management for financial institutions Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding.... Firewall Change Management 20 Firewall Management Best Practices for Network Security Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/29/23 Published Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding. Firewall management is one of the most time-consuming tasks that security teams and network administrators regularly perform. The more complex and time-consuming a task is, the easier it is for mistakes to creep in. Few organizations have established secure network workflows that include comprehensive firewall change management plans and standardized firewall best practices. This makes implementing policy changes and optimizing firewall performance riskier than it needs to be. According to the 2023 Verizon Data Breach Investigation Report, security misconfigurations are responsible for one out of every ten data breaches. ( * ) This includes everything from undetected exceptions in the firewall rule base to outright policy violations by IT security teams. It includes bad firewall configuration changes, routing issues, and non-compliance with access control policies. Security management leaders need to pay close attention to the way their teams update firewall rules, manipulate firewall logs, and establish audit trails. Organizations that clean up their firewall management policies will be better equipped to automate policy enforcement, troubleshooting, and firewall migration. 20 Firewall Management Best Practices Right Now 1. Understand how you arrived at your current firewall policies: Most security leaders inherit someone else’s cybersecurity tech stack the moment they accept the job. One of the first challenges is discovering the network and cataloging connected assets. Instead of simply mapping network architecture and cataloging assets, go deeper. Try to understand the reasoning behind the current rule set. What cyber threats and vulnerabilities was the organization’s previous security leader preparing for? What has changed since then? 2. Implement multiple firewall layers: Layer your defenses by using multiple types of firewalls to create a robust security posture. Configure firewalls to address specific malware risks and cyberattacks according to the risk profile of individual private networks and subnetworks in your environment. This might require adding new firewall solutions, or adding new rules to existing ones. You may need to deploy and manage perimeter, internal, and application-level firewalls separately, and centralize control over them using a firewall management tool. 3. Regularly update firewall rules: Review and update firewall rules regularly to ensure they align with your organization’s needs. Remove outdated or unnecessary rules to reduce potential attack surfaces. Pay special attention to areas where firewall rules may overlap. Certain apps and interfaces may be protected by multiple firewalls with conflicting rules. At best, this reduces the efficiency of your firewall fleet. At worst, it can introduce security vulnerabilities that enable attackers to bypass firewall rules. 4. Apply the principle of least privilege: Apply the principle of least privilege when creating firewall rules . Only grant access to resources that are necessary for specific roles or functions. Remember to remove access from users who no longer need it. This is difficult to achieve with simple firewall tools. You may need policies that can follow users and network assets even as their IP addresses change. Next-generation firewalls are capable of enforcing identity-based policies like this. If your organization’s firewall configuration is managed by an outside firm, that doesn’t mean it automatically applies this principle correctly. Take time to review your policies and ensure no users have unjustified access to critical network resources. . 5. Use network segmentation to build a multi-layered defense: Use network segmentation to isolate different parts of your network. This will make it easier to build and enforce policies that apply the principle of least privilege. If attackers compromise one segment of the network, you can easily isolate that segment and keep the rest secure. Pay close attention to the inbound and outbound traffic flows. Some network segments need to accept flows going in both directions, but many do not. Properly segmented networks deny network traffic traveling along unnecessary routes. You may even decide to build two entirely separate networks – one for normal operations and one for management purposes. If the networks are served by different ISPs, an attack against one may not lead to an attack against the other. Administrators may be able to use the other network to thwart an active cyberattack. 6. Log and monitor firewall activity: Enable firewall logging and regularly review logs for suspicious activities. Implement automated alerts for critical events. Make sure you store firewall logs in an accessible low-cost storage space while still retaining easy access to them when needed. You should be able to pull records like source IP addresses on an as-needed basis. Consider implementing a more comprehensive security information and event management (SIEM) platform. This allows you to capture and analyze log data from throughout your organization in a single place. Analysts can detect and respond to threats more effectively in a SIEM-enabled environment. Consider enabling logging on all permit/deny rules. This will provide you with evidence of network intrusion and help with troubleshooting. It also allows you to use automated tools to optimize firewall configuration based on historical traffic. 7. Regularly test and audit firewall performance: Conduct regular security assessments and penetration tests to identify vulnerabilities. Perform security audits to ensure firewall configurations are in compliance with your organization’s policies. Make sure to preview the results of any changes you plan on making to your organization’s firewall rules. This can be a very complex and time-consuming task. Growing organizations will quickly run out of time and resources to effectively test firewall configuration changes over time. Consider using a firewall change management platform to automate the process. 8. Patch and update firewall software frequently: Keep firewall firmware and software up to date with security patches. Vulnerabilities in outdated software can be exploited, and many hackers actively read update changelogs looking for new exploits. Even a few days’ delay can be enough for enterprising cybercriminals to launch an attack. Like most software updates, firewall updates may cause compatibility issues. Consider implementing a firewall management tool that allows you to preview changes and proactively troubleshoot compatibility issues before downloading updates. 9. Make sure you have a reliable backup configuration: Regularly backup firewall configurations. This ensures you can quickly restore settings in case of a failure or compromise. If attackers exploit a vulnerability that allows them to disable your firewall system, restoring an earlier version may be the fastest way to remediate the attack. When scheduling backups, pay special attention to Recovery Point Objectives (RPO) and Recovery Time Objectives (RTO). RPO is the amount of time you can afford to let pass between backups. RTO is the amount of time it takes to fully restore the compromised system. 10. Deploy a structured change management process: Implement a rigorous change management process for firewall rule modifications. Instead of allowing network administrators and IT security teams to enact ad-hoc changes, establish a proper approval process that includes documenting all changes implemented. This can slow down the process of implementing firewall policy changes and enforcing new rules. However, it makes it much easier to analyze firewall performance over time and generate audit trails after attacks occur. Organizations that automate the process can enjoy both well-documented changes and rapid implementation. 11. Implement intrusion detection and prevention systems (IDPS): Use IDPS in conjunction with firewalls to detect and prevent suspicious or malicious traffic. IDPS works in conjunction with properly configured firewalls to improve enterprise-wide security and enable security teams to detect malicious behavior. Some NGFW solutions include built-in intrusion and detection features as part of their advanced firewall technology. This gives security leaders the ability to leverage both prevention and detection-based security from a single device. 12. Invest in user training and awareness: Train employees on safe browsing habits and educate them about the importance of firewall security. Make sure they understand the cyber threats that firewalls are designed to keep out, and how firewall rules contribute to their own security and safety. Most firewalls can’t prevent attacks that exploit employee negligence. Use firewall training to cultivate a security-oriented office culture that keeps employees vigilant against identity theft , phishing attacks, social engineering, and other cyberattack vectors. Encourage employees to report unusual behavior to IT security team members even if they don’t suspect an attack is underway. 13. Configure firewalls for redundancy and high availability: Design your network with redundancy and failover mechanisms to ensure continuous protection in case of hardware or software failures. Multiple firewalls can work together to seamlessly take over when one goes offline, making it much harder for attackers to capitalize on firewall downtime. Designate high availability firewalls – or firewall clusters – to handle high volume traffic subject to a wide range of security threats. Public-facing servers handling high amounts of inbound traffic typically need extra protection compared to internal assets. Rule-based traffic counters can provide valuable insight into which rules activate the most often. This can help prioritize the most important rules in high-volume usage scenarios. 14. Develop a comprehensive incident response plan: Develop and regularly update an incident response plan that includes firewall-specific procedures for handling security incidents. Plan for multiple different scenarios and run drills to make sure your team is prepared to respond to the real thing when it comes. Consider using security orchestration, automation, and response (SOAR) solutions to create and run automatic incident response playbooks. These playbooks can execute with a single click, instantly engaging additional protections in response to security threats when detected. Be ready for employees and leaders to scrutinize firewall deployments when incidents occur. It’s not always clear whether the source of the issue was the firewall or not. Get ahead of the problem by using a packet analyzer to find out if firewall misconfiguration led to the incident or not early on. 15. Stay ahead of compliance and security regulations: Stay compliant with relevant industry regulations and standards, such as GDPR , HIPAA, or PCI DSS , which may have specific firewall requirements. Be aware of changes and updates to regulatory compliance needs. In an acquisition-oriented enterprise environment, managing compliance can be very difficult. Consider implementing a firewall management platform that provides a centralized view of your entire network environment so you can quickly identify underprotected networks. 16. Don’t forget about documentation: Maintain detailed documentation of firewall configurations, network diagrams, and security policies for reference and auditing purposes. Keep these documents up-to-date so that new and existing team members can use them for reference whenever they need to interact with the organization’s firewall solutions. Network administrators and IT security team members aren’t always the most conscientious documentation creators. Consider automating the process and designating a special role for maintaining and updating firewall documentation throughout the organization. 17. Regularly review and improve firewall performance: Continuously evaluate and improve your firewall management practices based on evolving threats and changing business needs. Formalize an approach to reviewing, updating, and enforcing new rules using data gathered by your current deployment. This process requires the ability to preview policy changes and create complex “what-if” scenarios. Without a powerful firewall change management platform in place, manually conducting this research may be very difficult. Consider using automation to optimize firewall performance over time. 18. Deploy comprehensive backup connectivity: In case of a network failure, ensure there’s a backup connectivity plan in place to maintain essential services. Make sure the plan includes business continuity solutions for mission-critical services as well as security controls that maintain compliance. Consider multiple disaster scenarios that could impact business continuity. Security professionals typically focus on cyberattacks, but power outages, floods, earthquakes, and other natural phenomena can just as easily lead to data loss. Opportunistic hackers may take advantage of these events to strike when they think the organization’s guard is down. 19. Make sure secure remote access is guaranteed: If remote access to your network is required, use secure methods like VPNs and multi-factor authentication (MFA) for added protection. Make sure your firewall policies reflect the organization’s remote-enabled capabilities, and provide a secure environment for remote users to operate in. Consider implementing NGFW solutions that can reliably identify and manage inbound VPN connections without triggering false positives. Be especially wary of firewall rules that automatically deny connections without conducting deeper analysis to find out whether it was for legitimate user access. 20. Use group objects to simplify firewall rules: Your firewall analyzer allows you to create general rules and apply them to group objects, applying the rule to any asset in the group. This allows you to use the same rule set for similar policies impacting different network segments. You can even create a global policy that applies to the whole network and then refine that policy further as you go through each subnetwork. Be careful about nesting object groups inside one another. This might look like clean firewall management, but it can also create problems when the organization grows, and it can complicate change management. You may end up enforcing contradictory rules if your documentation practices can’t keep up. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

The best security posture is a multi-layered security posture. Enterprise security leaders understand that no single tool or solution can... Firewall Change Management 20 Best Network Security Solutions + FAQs Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/31/23 Published The best security posture is a multi-layered security posture. Enterprise security leaders understand that no single tool or solution can provide best-in-class security to an entire organization on its own. As a result, security leaders continually invest in new security tools and platforms to address a growing list of emerging cyber threats like ransomware, credential-based attacks, and malicious insiders. However, not all network security solutions work together smoothly. The average enterprise uses more than 75 different security tools to protect against cyber attacks. This can create a complex environment that is difficult to manage. Security leaders need to simplify their tech stack and focus on the apps, managed services, and security controls that produce reliable results. We’ve gathered a list of the top 20 types of network security platform — from firewall technology to access management, SIEM platforms and more. Discover some of the most promising security technologies on the market right now. 1 . AlgoSec AlgoSec is a policy management platform that enables the world’s most complex organizations to gain visibility, reduce risk, and make changes across hybrid networks. AlgoSec supports both on-premises and cloud-based firewall deployments, enabling security teams to optimize network traffic and protect sensitive information from hackers. Organizations rely on AlgoSec to update security policies according to real-world needs with automation. AlgoSec is best known for its secure application connectivity and security policy across the hybrid network estate, including public cloud, private cloud, containers, and on-premises. AlgoSec offers a centralized platform for previewing changes to security rules, updating those rules, and gathering data on the results of those changes. AlgoSec’s zero touch management is a key selling point, allowing administrators to avoid misconfigurations by automating security policy changes. 2. Cisco Cisco is a global leader in network security solutions, offering a wide range of products and services, including firewalls, intrusion prevention systems, and VPN solutions. Cisco is best known as a cybersecurity hardware vendor, controlling nearly half the world’s ethernet switch market and one-third of the global enterprise router market. Finally, we’d be remiss if we didn’t acknowledge they’re one of the most reputable providers on the market — boasting a comprehensive security portfolio, tons of integrations and the ability to scale. Cisco’s security products are designed to work together and integrate seamlessly into existing network infrastructure, making it a solid choice for enterprises. 3. Palo Alto Networks Palo Alto Networks is known for its next-generation firewall (NGFW) solutions and advanced threat protection services. Some key points about Palo Alto Networks: AlgoSec integrates seamlessly with Palo Alto to automate application and user aware security policy management and ensure that Palo Alto Networks’ devices are properly configured. It is one of the industry’s most consistent innovators in firewall technology, providing security teams with unique capabilities that many other vendors do not. The company originally focused on hardware enterprise firewalls, but has spent years expanding to cloud-native software firewalls and other detection technologies. Its Cortex XDR solution consistently wins top placement in MITRE ATT&CK evaluations, with 100% detection and prevention scores. 4. Tufin Tufin specializes in Network Security Policy Management (NSPM) solutions. The company’s primary focus is to help organizations streamline and enhance their network security operations by providing tools and platforms that improve security policy management, compliance, and automation. Tufin’s solutions are designed to address the complexities of managing security policies in modern IT environments. This allows organizations to deploy Zero Trust architecture and manage risk more effectively. 5. Fortinet Fortinet specializes in integrated security solutions, including NGFWs, secure SD-WAN, and endpoint security. The company is best-known for its hardware firewalls, which include advanced automation features. It also provides threat intelligence services and Secure Access Service Edge (SASE) solutions. The company’s products are designed for easy integration in a variety of scenarios. It calls its approach to consolidating security across multiple tools and platforms the Fortinet Security Fabric. 6. CheckPoint CheckPoint provides a variety of security solutions, including firewalls, intrusion detection and prevention systems, and security management platforms. It sells both hardware and software firewalls alongside prevention-based technologies designed for data center use. 7. FireMon FireMon helps organizations assess, manage, and enhance the security of their network infrastructures, including firewalls, routers, switches, and cloud security configurations. It specializes in helping organizations reduce risk, manage change, and enforce compliance. Security leaders rely on vendors like FireMon to help them identify and remediate configuration errors that introduce inefficiencies to their security posture. This also helps reduce exposure to unknown threats that may exploit vulnerabilities linked to firewall misconfiguration . 8. Symantec Symantec, known for its Norton brand, offers network security solutions, including endpoint protection and email security. As of September 2022, both companies are brands of Gen Digital , a publicly traded parent organization. The parent company’s products are primarily designed to address consumer cybersecurity risks. It provides a wide range of endpoint security solutions, including antivirus, email phishing protection, and more. 9. McAfee McAfee provides a wide range of cybersecurity products and services, including network security solutions, antivirus, and threat intelligence. Many of its products focus on end-user protection and mobile security, and the company markets these products directly to users. As part of Intel’s security division, McAfee provides organizations with managed security services through its ESM Cloud product. This product streamlines operational security and allows security teams to automate incident investigations. 10. Juniper Networks Juniper Networks offers network security solutions, including firewalls, VPNs, and threat detection and prevention. Originally a hardware firewall vendor and competitor to Cisco, the company has expanded to provide AI-powered cloud-native security products like Mist AI. The company’s suite of security products and technologies supports IT teams, managed security service providers, and cloud operators alike. Hardware firewalls, routers, and switches are a major component of Juniper’s overall market share, and remain the products for which the company is best known. 11. Trend Micro Trend Micro focuses on endpoint security, cloud security, and network defense solutions. The company’s products help security teams understand, prioritize, and mitigate risk while protecting cloud-native infrastructure from cyber attacks. Security leaders who face challenges turning Zero Trust principles into operational guidelines can rely on Trend Micro to support those changes and streamline deployment. 12. Sophos Sophos offers a variety of security products, including firewalls, antivirus, and encryption solutions. Most of its solutions come in the form of services like the company’s managed detection and response service. This provides on-demand security resources to organizations that need to improve security operations without investing in on-premises technology or hiring new staff. Sophos offers productized security services in four main areas: endpoint, network, email, and cloud. Its network security services include the installation and integration of SASE-ready firewalls, switches, and routers. 13. WatchGuard WatchGuard specializes in network security appliances, secure Wi-Fi, and multi-factor authentication. It specializes in security technologies designed to block external threats like ransomware . The company provides separate security solutions for businesses, managed service providers, and security operations centers. These include XDR platforms, SD-WAN solutions, and threat hunting. It also offers identity security and multi-factor authentication solutions to enterprise customers that wish to improve their identity management policies. 14. Barracuda Networks Barracuda offers security solutions for email protection, web application security, and network firewalling. It also offers enterprise-grade SASE solutions to businesses looking for accessible options for simplifying secure network access. The Barracuda Security Service Edge allows organizations to implement the security controls of a next-generation firewall without having to spend the same amount of money that a cloud-enabled firewall implementation would otherwise cost. 15. F5 Networks F5 Networks provides application security solutions, including web application firewalls and load balancers with security features. It offers specialized security solutions for organizations using multiple cloud providers to host apps and other tools that do not easily integrate into a unified security environment. This enables enterprises with complex IT infrastructure to enhance web application and API security, prevent fraud and abuse, and implement Zero Trust principles. F5’s approach eliminates the need to dramatically change the organization’s internal structure to meet security and compliance needs. 16. Bitdefender Bitdefender offers network security solutions with a focus on endpoint protection, including advanced threat detection and response. The company is best-known for its free antivirus software, which is among the most popular worldwide. Despite being well-known for consumer cybersecurity solutions, BitDefender also offers a wide range of enterprise security tools. Its GravityZone XDR solution provides visibility to enterprise security teams while enabling analysts to respond to threats in real-time. 17. CyberArk CyberArk specializes in privileged access security solutions, critical for securing access to network resources. It is a leader in the identity management space, providing tools and solutions that help organizations verify and authenticate user identities in complex networks. The company uses intelligent privilege controls to map user behaviors to established identities and roles. This allows other security tools – like firewalls and XDR solutions – to enforce policies at the user identity level, instead of focusing purely on IP addresses and port information. 18. Zscaler Zscaler is known for its cloud-native security platform, providing secure access to cloud applications and services. It is a leader in Zero Trust technology, helping security leaders operationalize Zero Trust compliance while hosting increasingly complex environments on the cloud. Scaling zero trust architecture to meet the needs of growing enterprises is an important part of Zscaler’s overall mission – it’s in the name of the company itself. It provides AI-powered protection for users, web apps, SaaS platforms, devices, and more. 19. SentinelOne SentinelOne is a more recent entrant to the XDR market, providing organizations with automated detection and response solutions that block unauthorized processes in real-time. The company’s Singularity platform allows security teams to create piecemeal implementations integrating individual security tools on an as-needed basis while breaking down security silos and improving visibility across the environment. Along with Palo Alto Networks, SentinelOne leads the pack when it comes to MITRE ATT&CK evaluation scores. It is the only other company to consistently achieve 100% prevention results on these tests. 20. CrowdStrike Crowdstrike offers comprehensive cybersecurity product bundles that include SIEM platforms, XDR solutions, and more. It provides organizations and managed service providers with a complete set of cybersecurity solutions designed to catch sophisticated threats and mitigate advanced risks. Enterprise security teams use Crowdstrike to engage with multiple, modular security functionalities to a single, centralized platform. It provides cloud security, identity protection, and next-generation SIEM performance through its Falcon platform, and enables those different tools to integrate seamlessly with one another. What is endpoint security and its functionality? Endpoint security tools protect individual devices like desktop workstations, laptop computers, and mobile phones from cyber attacks. This usually means installing an endpoint security client on the device which regularly scans for malware and inspects user behaviors to detect signs of unauthorized access. Mobile devices are particularly important to endpoint security because they can change location or get lost or stolen. Many advanced endpoint security tools offer additional features to detect malicious insiders who may have gained access to a legitimate user’s mobile device. What are firewalls in network security? Firewalls are devices that inspect network traffic. They typically sit at the edge of the network, protecting internal network assets from receiving malicious content from outside the network. Traditional firewalls look for packet and port data that indicates unauthorized activity and filter out connections that don’t appear legitimate. Next-generation firewalls offer a much wider range of capabilities to security teams. They can conduct deep packet inspection and identify traffic that belongs to particular apps or users. Some NGFW devices can even detect when sensitive data is being sent out of the network and block the attempt. What is Network Access Control (NAC)? Network access control solutions provide visibility into the actions users take on a network. They enable security teams to enforce access management policies on devices throughout the network. Without an NAC solution in place, security tools would have a much harder time recognizing users and devices based on their usage profiles, or managing permissions and authentication policies without using a separate access control solution. What is Zero Trust Network Access (ZTNA)? Zero Trust Network Access provides secure remote access to the data, applications, and service hosted on a network. It does this through a set of strictly defined access control policies that do not extend trust to users based on their previous behaviors. With a ZTNA policy in place, a malicious user who impersonates an employee and gains access to one segment of the network would not necessarily be able to move onto another segment of the network. How does Zero Trust secure cloud environments within enterprise networks? Cloud-enabled network infrastructure provides a more complex security profile than simple on-premises infrastructure. This is because the organization may not control the entire network, and it may not be able to establish boundaries for that network on its own. Security leaders need to deploy a more complex set of firewalls, proxies, and threat detection solutions to securely access cloud-hosted assets while still complying with Zero Trust. What is the Role of Network Segmentation in Reducing Attack Surface? Network segmentation puts obstacles up between different parts of the network. If attackers compromise one segment of the network, they will be unable to gain instant access to the rest of the network. Instead, they will have to spend additional time and resources breaking into other network segments. This increases the chance that security teams can detect the intruder and remediate the attack before catastrophic damage is done. What is Secure Access Service Edge (SASE)? SASE is an emerging concept that provides a level of security appropriate to complex cloud-enabled enterprises with distributed remote users. It combines wide area network (WAN) with network security services like CASB, firewall-as-a-service, and Zero Trust into a unified service delivered through the cloud. This gives security leaders real-time data on their cloud security posture and allows them to accurately assess network risks continuously. What is threat detection and threat intelligence? Threat detection tools include Intrusion Prevention Systems (IPS), sandboxes, and Security Information and Event Management platforms: Intrusion Prevention Systems (IPS) identify and block unauthorized network activity, often in conjunction with firewalls and other security tools. Sandboxing allows users to download and open suspicious files in a simulated IT environment. If the file launches malware, the sandbox application will close and delete the file without allowing it to harm the system. Security Information and Event Management (SIEM) platforms allow security operations personnel to conduct real-time monitoring and respond to threats as soon as they occur. How do network security solutions help with data loss prevention? (DLP) Network security tools prevent hackers from interacting with sensitive data and block attempts to exfiltrate that data and use it to extort users. DLP solutions help security teams identify and classify sensitive information so that they can put the appropriate security controls in place to protect it. Without this step, it would be very difficult to tell when data breaches result in the loss of protected data because security teams would not have a clear idea of where that data is. In addition to network security, many organizations are also relying on enterprise data backup and recovery solutions in the event of a disaster, their cloud data is preserved and easily retrievable. Can network security solutions help with email security? Some network security tools include valuable email security and anti-phishing features. For example, some next-generation firewalls can detect when authorized users attempt to input their login credentials on spoofed websites. They prevent the data from leaving the network and warn the user that they have been targeted by a phishing attack. Multi-layered security solutions are crucial to establishing secure workflows. What is the role of Virtual Private Networks (VPN) in Network Security? VPNs allow users to encrypt their traffic and interact with protected information even when they don’t trust their own internet connection. This is important for employees interacting with remote records while traveling, where hackers can easily create fake Wi-Fi hotspots designed to look like well-known public networks. Some VPNs also anonymize user identities, allowing them to access content they would not otherwise be able to. What is IoT’s impact on Network Security? The Internet of Things presents many challenges to operational security, especially for large enterprises and industrial organizations. IoT devices rarely benefit from the kind of built-in security protections that desktop workstations and mobile phones have, making them an easy target for hackers. Security leaders need to group IoT devices together and protect them with strict security policies enforced by high quality firewalls and other tools. Mitigating Distributed Denial of Service (DDoS Attacks) Hackers may attack organizations by preventing other users from accessing their services. They may even use these attacks to disrupt firewalls and create an opening through which they can launch additional attacks. Protecting network assets from DDoS attacks requires implementing firewalls that can detect these attacks and drop the malicious connections hackers are trying to make. Next-generation firewalls have additional resources available for doing this, and can even defend against complex multi-session attacks. What are network security best practices? Network security policies and firewall rules must balance the need for security with the need for easy and accessible workflows. If security tools prevent legitimate users from accessing the assets they need, it may impact production. Similarly, security leaders need to deploy limited resources efficiently. Automation helps ensure security team members can dedicate their time to important strategic initiatives instead of high-volume, low-impact tasks. What is the role of Managed Security Service Providers (MSSPs)? MSSPs help growing organizations enhance operational security without requiring them to build, deploy, and staff their own security operations center. This allows them to save a great deal of money compared to the cost of building in-house security capabilities. It also grants organizations access to specialist security talent they might not otherwise be able to afford. Instead of paying for unpredictable security expenditures, organizations can pay a consistent monthly fee according to the services they actually use. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call